TH43206B - Bonding elements for rubber and fiber bonding Synthetic fiber for rubber reinforcement And the structure of the rubber reinforced by fibers - Google Patents

Abstract

Adhesive compounds for bonding rubber and fibers, which allow synthetics to adhere strongly to rubber even when reducing the amount of admixtures applied to the fibers. Synthetic fiber for rubber reinforcement coated with adhesive compound for Improves adhesion to rubber while maintaining natural rubber characteristics. the nation of synthetic fibers themselves and the structure of the rubber that is also reinforced A fiber in which the rubber is reinforced by synthetics for rubber reinforcement. The adhesive hair has a matrix of adhesives. and silicate compounds. Silicate compounds consist of silicon and magnesium that Silicon/Magnesium by weight ratio from 1/0.1 to 1/1.0 is preferred as a 1% aqueous civicane dispersant with a transmittance of approximately 50% or more, and/or a silicone dispersant. Cate in water, 2%, has a thixotropy index from about 2.0 to 10.0, favoring the compound. Silicates are smectite.

Claims (2)

1. Adhesives for rubber and synthetic bonding. Matrix of adhesives and silicate compounds The silicate compound consists of silicon and magnesium at the weight ratio of silicon / magnesium is approximately 1 / 0.1 to 1 / 1.0. 2. Adhesives for rubber and synthetic bonding. Such stick contains The matrix of adhesives and silicate compounds in which the dispersant of such silicate compounds in 1% water has a transmittance (T) of approximately 50% or more. Rubber and synthetic adhesives. Such adhesives consist of a matrix of binders and adhesives. Silicate assembly Which dispersants of silicate compounds as That said, in 2% of water, the sikotropy index is from approximately 2.0 to 10.0 4. Adhesion Mixture Clause 1, in which silicate compounds The aforementioned components consist of sodium and lithium. 5. Substance admixtures for Clause 1. The silicate compound, in 1% water, has a transmittance (T) of approximately 50% or more. 6. Attachment of Clause 4. Such silicate compounds, in 1% water, have a transmittance (T) of approximately 50% or more. 7. Adhesion Mixture Claim 1, which disperse The silicate compound, in 2% water, has a thixotropy index from approximately 2.0 to 10.0. 8. Substance admixtures on claim 1, which disperse Such silicate compounds, in 1% water, have a transmittance (T) of approximately 50% or more, and dispersants of silicates. The said Kate in 2% water has a thixotropy index from approximately 2.0 to 10.0 1 0. Claim Claim 4, which disperse The aforementioned silicate compounds in 1% water have a transmittance (T) of approximately 50% or more, and the dispersants of such silicate compounds in 2% water have a thixotropy index of approximately 2.0. TO 10.0 1 1. Follow-up admixture of any Clause 1 to 10 of which the silicate compound is Smectite 1. 2. Substance Following any of the Claims. Articles 1 to 10, the matrix component of such adhesives is considered Contains resorcin, l, formaldehyde, rubber, latex 1 3. Any trace admixture of claim 1 to 10, which the matrix of such adhesives is considered to be: Polyepoxide compounds Latex and selected compounds From the group containing isocyanate compounds Blocked and Ethylene-urea Compound 1 4. Follow-up admixture of claim 1 to 10 where the content of the aforementioned silicate in the fixing mixture Such addiction is from approximately 1 to 10% by weight compared. With the matrix of adhesives such. 1 5. The aggregate of synthetic fibers for reinforcing the rubber fibers. Shape the total mass The aggregates of such fibers have a fiber surface coated with adhesives. Such adhesives contain silicate compounds and a binder matrix. stick Such silicate compounds Is composed of silicon and magnesium contained at the ratio By the weight of Silicon / magnesium from approximately 1 / 0.1 to 1 / 1.0 1 6. The total mass of polyamide for the reinforcement of such fibers Shape the total mass Selected from the thread and fiber group, the aggregates of such fibers have a fiber surface coated with adhesives. Such adhesives consist of silicate compounds and a matrix of binders. Which dispersants Composed of such silicate, in 1% water, the transmittance (T) is approximately 50% or more than 1. 7. The total mass of synthetic fibers for the reinforcement of such fibers. Shape the total mass Selected from the thread and fiber group, the aggregates of such fibers have a fiber surface coated with adhesives. Such adhesives contain silicate compounds and a matrix of binders. Which dispersants The silicate assembly in 2% water has a thixotropy index from approximately 2.0 to 10.0 1. 8. The total mass of synthetic fibers for rubber reinforcement according to any of the above. One of Clause 15 to 17, in which the silicate compound is Smectite 1. 9. The aggregate of synthetic fibers for rubber reinforcement according to the claim. Any one of claims 15 to 17 in which the total mass of the fibers is polyester fiber. The strands were then treated with a mixture of 2.0 to 4.0% by weight compared to the weight of enough fibers. That list of the esters of the said chain Such lifelines The strength of the fiber is from approx. 5 to 20 g / fiber and the tensile strength of the T-shaped cut per fiber is from approximately 5.5 to 7.5 g / denier 2 0. total mass of reinforced polyamide. Rubber force according to which of the following One of the claims 15 to 17, the aggregate of which is polyamide. Resulting in a form Such lifelines It is coated with the aforementioned compound in an amount from approximately 2.0 to 5% by weight of the polyamide. Said that of the said link Such lifelines are The tensile strength of the strands is from approx. 5 to 20 g / fiber and the tensile strength of the T-shaped adhesion per fiber is from approx. 5.5 to 7.5 g / denier 2 1. The total mass of polyamide for rubber based reinforcement. Any of the above One of the claims 15 to 17, in which the aggregate of such fibers is the aerobic polyamide that forms the fibers, is coated with the aforementioned admixtures in quantities of 3.0 to 60% by weight of the aerobic polyamide fibers of such fibers. That link The strength of the fiber is from approx. 5 to 20 g / fiber and the tensile strength of the bond is from approximately 5.5 to 7.5 g / denier 2. 2. The total mass of polyamide for rubber reinforcement. According to any of the above One of the claims 15 to 17, which is the total mass of the fibers. That is polyvinyl The alcohol that forms the fibers is coated with the said bond at an amount from approximately 2.0 to 5.0% by weight compared to the weight of the polyvinyl alcohol of the fibers. The strength of the fiber from approximately 5 to 20 g / fiber and the tensile strength of the bond as a form to the fiber is from approximately 5.5 to 7.5 g / denier 2. 3. The total mass of polyamide for reinforcement. Rubber pursuant to Clause 19, in which the said tie has the initial and the last closure, the last such closure has The closure coefficient is from approximately 900 to 1800, and the initial closure has a closing coefficient from approximately 1300 to 2500 2 4. The aggregate of synthetic rubber for rubber reinforcement according to claim 20, where the bond There is an initial and a final closure. The closing coefficient from approximately 900 to 1800 and the said initial closure had a closing coefficient from approximately 1300 to 2500 2 5. The aggregate of synthetic fibers for rubber reinforcement in accordance with claim 21, where the bond There is an initial and a final closure, the last closing had a closing coefficient from approximately 900 to 1800, and the said initial closure. Closing coefficients from approximately 1300 to 2500 2 6. The total mass of synthetic rubber for rubber reinforcement according to claim 22, whereby the chain has the initial and the last closure, the last closure. There is Rights of closure from approximately 900 to 1800 and an initial closure. It has a closing coefficient from approximately 1300 to 2500 2 7. The aggregate of synthetic fibers for rubber reinforcement according to claim 23, where the chain has the initial and the last closure. The last such closure has The closing coefficient was from approximately 900 to 1800, and the initial closure had a closing coefficient from approximately 1300 to 2500 2 8. Fiber-reinforced rubber construction consisting of methanol. The matrix of the rubber is distributed with a fiber for bulk reinforcement, which the matrix The rix of such tires is reinforced by bonding with fibers. Synthetic rubber for bulk reinforcement according to claim 19 2. 9. Structure of fiber-reinforced rubber consisting of meth The matrix of the rubber is distributed with a fiber for bulk reinforcement, which the matrix The rix of such tires is reinforced by bonding with fibers. Synthetic for bulk rubber reinforcement according to claim 20 3 0. Fiber-reinforced rubber construction consisting of meth The matrix of the rubber is distributed with a fiber for bulk reinforcement, which the matrix The rix of such tires is reinforced by bonding with fibers. Synthetic for bulk reinforcement of rubber according to claim 21 3. 1. Structure of a fiber-reinforced rubber consisting of meth The matrix of the rubber is distributed with a large number of reinforcing fibers, the matrix of which is reinforced by bonding to the fibers. Synthetic for bulk reinforcement of rubber according to claim 22 3. 2. The structure of the fiber reinforced rubber consisting of meth The matrix of the rubber is distributed with a large number of reinforcing fibers, the matrix of which is reinforced by bonding to the fibers. Synthetic for bulk reinforcement of rubber according to Clause 23 (32 clause, 5 page, 0 figure).